CN1149826C

CN1149826C - Image read device and image read system

Info

Publication number: CN1149826C
Application number: CNB971153140A
Authority: CN
Inventors: �ż��; 田端雅己; 川合达人
Original assignee: Canon Inc
Current assignee: Canon Inc
Priority date: 1996-08-02
Filing date: 1997-08-01
Publication date: 2004-05-12
Anticipated expiration: 2017-08-01
Also published as: CN100426324C; JPH1097612A; CN1177783A; CN1405733A; US20020030862A1; US6556317B2; EP0822705A3; EP0822705A2; TW356543B

Abstract

In an image sensor which has a photoelectric conversion element group, an illumination device having light sources of at least three emission colors R, G, and B, an imaging lens, and the like, moire noise in a color output image is eliminated, the original reading time is shortened, and a cost reduction is attained. For this purpose, a sensor array including a linear array of a plurality of photoelectric conversion elements, a lens array for imaging an original image on the sensor array, an illumination device using LEDs having emission colors R, G, and B, and a cover glass are supported by and fixed to a frame. The conjugate length of the lens array is set to fall within the range between the R and G emission wavelengths. An original pressed against the cover glass is illuminated by the illumination device, and light reflected by the original is converted into electrical signals by the sensor array, thereby reading the original image.

Description

Image reading apparatus and visual reading system

Technical field

The present invention relates to a kind of image read system that is used for reading the image read-out of colored original paper image especially and utilizes this image read-out.

Background technology

Figure 13 is the sectional view of an example of image sensor.This transducer comprises a sensor array 1, this sensor array is made by sensor installation IC 101 on sensor board 102, a set of lenses 2, led array 6 with three different LED 301,302 and 303, with the light source of doing the original paper illumination, cover-plate glass 4, framework 5 is used to keep these elements in place.

Led array 6 is to constitute by a plurality of dissimilar LED elements 301,302 and 303 are installed on a plate, and 20 or more element for example are set on every row, obtains the uniform Illumination Distribution of original paper when reading the original paper of A4 size with box lunch.

Three kinds of different elements 301,302 and 303 emission peak wavelength are respectively 430 (nm) corresponding to blueness, corresponding to 570 (nm) of green with corresponding to 660 (nm) of redness.

Set of lenses 2 forms by a plurality of columnar lens elements are set on a line, provides lens function by different gradually refractive indexes is set between peripheral part and core.

And for set of lenses 2, the lens with smaller aperture due angle (subtended angle) are selected, because some colored original paper has picture and has 3-D view on its surface, therefore, need have the focal length of 0.5 (mm).In addition, the set of lenses with less aberration is selected, makes that G and B light beam can obtain essentially identical resolution at corresponding transducer R.

Generally speaking, the set of lenses with 12 degree angular apertures is used, need 18.3 (mm) as the conjugate length of the distance between original paper and the transducer.

But because above-mentioned traditional imageing sensor has used the set of lenses with smaller aperture due angle, the light quantity efficiency of transmission is lower, is being restricted aspect the original paper reading rate.

In addition, in the set of lenses with smaller aperture due angle, the distance from the original paper surface to transducer is bigger, and the feasible size of the imageing sensor of this set of lenses of utilizing becomes bigger.

In addition, in the embodiment of above-mentioned traditional imageing sensor, because set of lenses is imported R equably to sensor array, G, More (moire) phenomenon appears in the B light beam, that is, a very thin line in the original paper that reads, occurs, in the image of output, present a thick line.This phenomenon is obvious especially in colored original paper output image.

Summary of the invention

An object of the present invention is to provide an image read-out and system, can finish the work of reading at short notice.

Another object of the present invention provides the image device and the system of a small-sized cheapness.

Another object of the present invention is to eliminate More's generating noise in reading the coloured image process.

In order to obtain above-mentioned purpose, according to one embodiment of present invention, a kind of image read-out comprises: a photo-electric conversion element; A lighting device has a light source with the first, the second and the 3rd color, and its emission wavelength is elongated with the order of name; An imaging component, the light imaging that is used for being reflected by lighting device irradiation from original paper is to photo-electric conversion element; A support component, be used to support original paper, wherein from the center of imaging component to the optical distance of photo-electric conversion element be set as equal to have wavelength be longer than second color light source emission wavelength peak value light conjugate length 1/2, from the center of imaging component to 1/2 of the conjugate length of the light that is set as emission wavelength by the optical distance the original paper of supporting units support with conjugate length shorter than described conjugate length.

According to another embodiment of the invention, a kind of image read system comprises: a photo-electric conversion element; A lighting device has a light source with the first, the second and the 3rd color, and its emission wavelength is elongated with the order of name; An imaging component, the light imaging that is used for being reflected by lighting device irradiation from original paper is to photo-electric conversion element; A support component, be used to support original paper, a control device, be used to control photo-electric conversion element and lighting device, wherein from the center of imaging component to the optical distance of photo-electric conversion element be set as equal to have wavelength be longer than second color light source emission wavelength peak value light conjugate length 1/2, from the center of imaging component to 1/2 of the conjugate length of the light that is set as emission wavelength by the optical distance the original paper of supporting units support with conjugate length shorter than described conjugate length.

According to another embodiment of the invention, a kind of image read-out comprises: a photo-electric conversion element; A lighting device has a light source with the first, the second and the 3rd color, and its emission wavelength is elongated with the order of name; An imaging component, the light imaging that is used for being reflected by lighting device irradiation from original paper is to photo-electric conversion element; A support component, be used to support original paper, wherein from the center of imaging component to the optical distance of photo-electric conversion element be set as the light source that equals the 3rd color emission wavelength conjugate length 1/2, from the center of imaging component to 1/2 of the conjugate length of the emission wavelength of the light source that is set as second color by the optical distance the original paper of supporting units support.

According to another embodiment of the invention, a kind of image read system comprises: a photo-electric conversion element; A lighting device has a light source with the first, the second and the 3rd color, and its emission wavelength is elongated with the order of name; An imaging component, the light imaging that is used for being reflected by lighting device irradiation from original paper is to photo-electric conversion element; A support component, be used to support original paper, control device, be used to control photo-electric conversion element and lighting device, wherein from the center of imaging component to the optical distance of photo-electric conversion element be set as the light source that equals the 3rd color emission wavelength conjugate length 1/2, from the center of imaging component to 1/2 of the conjugate length of the emission wavelength of the light source that is set as second color by the optical distance the original paper of supporting units support.

Utilize above-mentioned setting, time for reading can be shortened, and can make reading device and system reduce size and reduce cost simultaneously.

According to another embodiment of the invention, a kind of image read-out comprises: a photo-electric conversion element; A lighting device has a light source with the first, the second and the 3rd color, and its emission wavelength is elongated with the order of name; An imaging component, the light imaging that is used for being reflected by lighting device irradiation from original paper is to photo-electric conversion element; A support component, be used to support original paper, wherein the conjugate length TC of imaging component is set as and satisfies A≤TC≤B, wherein, A be second color light source emission wavelength conjugate length 1/2, B be the 3rd color light source emission wavelength conjugate length 1/2.

According to another embodiment of the invention, a kind of image read system comprises: a photo-electric conversion element; A lighting device has a light source with the first, the second and the 3rd color, and its emission wavelength is elongated with the order of name; An imaging component, the light imaging that is used for being reflected by lighting device irradiation from original paper is to photo-electric conversion element; A support component, be used to support original paper, a control device, be used to control photo-electric conversion element and lighting device, wherein the conjugate length TC of imaging component is set as and satisfies A≤TC≤B, wherein, A be second color light source emission wavelength conjugate length 1/2, B be the 3rd color light source emission wavelength conjugate length 1/2.

Utilize above-mentioned structure, can provide one small-sized, cheap image read-out and system, the mole phenomenon that occurs when reading coloured image can be eliminated.

Objects and advantages of the present invention will become distincter by the description below in conjunction with specification and accompanying drawing.

Description of drawings

Fig. 1 is the sectional view of the structure of image sensor;

Fig. 2 is the vertical view of the structure of image sensor;

Fig. 3 is the amplification sectional view of the lighting device of Fig. 1;

Fig. 4 is the amplification profile of the lighting device of Fig. 1;

Fig. 5 has shown the curve of the spectral characteristic of each light source in the lighting device;

Fig. 6 has shown the imaging scope of set of lenses shown in Figure 1;

Fig. 7 is the curve that shows the set of lenses aberration;

Fig. 8 is the schematic diagram that shows the relation between the conjugate length fluctuation and MTF in the set of lenses;

Fig. 9 is the schematic diagram that shows the focal length characteristic of set of lenses;

Figure 10 shows R, the schematic diagram of G and B focal length characteristic;

Figure 11 is the schematic section that shows the structure of the information processor that utilizes imageing sensor;

Figure 12 is the block diagram that shows the structure of the information processor that utilizes imageing sensor;

Figure 13 is the sectional view of image sensor.

Embodiment

Embodiments of the invention are described with reference to the accompanying drawings.

Fig. 1 and Fig. 2 are respectively sectional view and the vertical view of demonstration according to the structure of imageing sensor of the present invention.This transducer is constructed as follows, a set of lenses 1, by accurately being set on the glass exposure sensor board 102 according to the length of the original paper that will read for example, each all makes at the sensor IC that a plurality of row have a linear array of a plurality of photo-electric conversion elements, set of lenses 2, being used for will be from the light imaging of original paper reflection to sensor array 1, a lighting device 3, be used for to the original paper irradiates light, a cover-plate glass 4 comprises that a transparent light transparent member is used to support original paper, a framework 5, it is in place and by metal for example aluminium or analog or by resin, for example Merlon or analog constitute to be used for these parts.

The mechanism of transducer with said structure is as follows.That is, lighting device 3 with the angles of inclination of 45 degree to being pressed on the cover-plate glass 4 and shining R on by the original paper of its support successively, the light beam of G and three kinds of colors of B, the R that set of lenses 2 will reflect from original paper, three kinds of optical information signal imaging of G and B are to sensor IC 101.Sensor IC converts three kinds of R the signal of telecommunication to and delivers to system G and B optical information signal photoelectricity.Three kinds of R of system handles, the G and the B signal of telecommunication produce coloured image.

As Fig. 3 of amplifying and shown in Figure 4, lighting device 3 is made up of the RGB led chip 31 of three kinds of colors, chip 31 comprises R, G and B LED element 311,312 and 313 as single packaged light source, light guide member 32 will be by the required direction of the beam direction that these elements send, and utilizes the parts third uncommon acid resin for example with high transmission rate characteristic.And in Fig. 3 and Fig. 4, pin 314 is connected on the chip 31, and light guide member 32 has a serrated portion 321 and a bossing 322.

R, the peak emission wavelength of G and B LED element is chosen as 620 (nm) respectively, and 530 (nm) and 470 (nm) are so that advance to improve possibly reproducibility and reduce aberration.Notice that these peak emission wavelengths only need fall into 590-630 (nm), in the scope of 510-550 (nm) and 450-490 (nm).

Led chip 31 is set up a marginal portion input beam from the length direction of light guide member 32 to light guide member 32, and input light is at the internal communication of light guide member 32 and total reflection repeatedly takes place on the interface between light guide member 32 and the air.

As shown in Figure 3 and Figure 4, being formed with closely spaced serrated portion 321 on light guide member 32 extends at its longitudinal direction.In the light component of light guide member internal communication, the light component that only enters serrated portion 321 is different with the reflection on other surface, reflected significantly to the original paper surface, and total reflection condition is not being satisfied in the next interface between light guide member 32 and air.Like this, this light component is exported with required direction.

This serrated portion 321 can be by deposit aluminium or printed silver China ink, chalk or analog or utilize zigzag and air between total reflection at the interface prepare a reflecting surface and form.

In addition, substitute and form a zigzag fashion, print chalk or make surface roughening also can provide same effect simply.

In order to obtain in the lip-deep uniform illumination of original paper, when the distance of distance light source became big, serrated portion 321 can be cut wideer, and perhaps under the situation of simple chalk printing, the Printing Zone can little by little be expanded.

Light guide member 32 for example also can cover one, except the light output part branch to original paper, has the white parts of high reflecting rate, therefore, has increased in the lip-deep illumination of original paper.

Fig. 5 has shown the spectral characteristic of the light source of lighting device 3, that is, and and R, the relation between G and B wavelength (nm) and the relative emissive porwer.

The set of lenses of using among this embodiment 2 is to form by a plurality of lens elements cylindraceous with 0.6 (mm) diameter of linear alignment, provides lens function by utilizing for example ion-exchange to core higher refractive index to be set from peripheral part.

Fig. 6 has shown the imaging scope of set of lenses 2.Traditional color image sensor has angular aperture θ=12 (degree) of a maximum owing to be to be made of the glass material with less aberration.But owing to adopted the glass material with suitable aberration, the set of lenses 2 of present embodiment can have θ=20 (degree) or bigger angular aperture.

Because it is big that angular aperture becomes, the light quantity of being picked up by lens increases.For this reason, the light quantity efficiency of transmission is improved, and the brightness that having the set of lenses of the angular aperture of θ=20 (degree) provides approximately is 4 times of traditional set of lenses of angular aperture θ=12 (degree).

On the other hand, in the set of lenses 2 of angular aperture θ=12 (degree), conjugate length TC (distance from the original paper surface to sensor surface) is 18.3 (mm), and in the set of lenses 2 of angular aperture θ=20 (degree), conjugate length is 9 (mm).

Fig. 7 has shown the aberration of set of lenses 2.As shown in Figure 7, conjugate length TC (distance from the original paper surface to sensor surface) is changed according to the wavelength of light source, to obtain maximum resolution.

In this embodiment, a R LED element with peak wavelength λ=620 (nm), a G LED element with peak wavelength λ=530 (nm), the B LED element with peak wavelength λ=470 (nm) is selected as light source.For this reason, the conjugate length corresponding to the maximum resolution of these elements is respectively 9.4 (mm), 8.8 (mm) and 8.2 (mm).

In this embodiment, the size of framework 5 and cover-plate glass 4 is adjusted, make the optical distance TC/2 between transducer and the lens centre be set to half 4.7mm of the conjugate length of R element, optical distance TC '/2 between cover-plate glass surface and the lens centre are set to half 4.4mm of the conjugate length of G element, and total conjugation length T C is set to 9.1 (mm), no better than the intermediate length between the conjugate length of R and G element.

But the selection of these sizes is that the optical path length of supposition lens is based on air calculating.But if be not that air exists glass (refractive index n=1.51) on light path, the thickness of glass must be set by the refractive index that optical path length be multiply by glass.

Fig. 8 has shown when TC fluctuates the change at the MTF of 200DPI (%), as the set of lenses characteristic of this embodiment.Fig. 9 also show since optical distance TC/2 from the transducer to the lens centre and the difference optical distance TC '/2 from the original paper surface to the lens centre in the change of the MTF of 200DPI.As shown in Fig. 8 and Fig. 9, when these distances equate mutually, can obtain the highest mtf value.

R shown in Figure 10, G and B depth of focus characteristic are to draw from Fig. 8 and Fig. 9 when the cover-plate glass surface of this embodiment is assumed to 0.

R and G depth of focus can for B, in the overwhelming majority of gamut, can not obtain the resolution of 200DPI at wide original paper surface location scope assurance 20% or the more mtf value of 0 to 0.5 (mm).But as long as R, the R of G and B three primary colors and the available words of G resolution can obtain the output image of actual satisfaction.

When utilizing the three-color LED element to read colored original paper, the contrast of image can be determined by the mean value of three looks.Therefore, therefore the marginal portion of a very thin line can be obtained not having the preferable colored output image of moore phenomenon by suitable having erased of B.

Even be lower than R when the B resolution, in G and the B three primary colors during resolution of two kinds of remaining looks, can be minimized the adverse effect of coloured image.

When reading comprises many characters or similarly during monochrome original, when one or two of R and G original paper are switched on, and the B element even original paper has slight floating on cover-plate glass 4, also can obtain to have the image of required resolution when turn-offing.

In this embodiment, conjugate length TC is adjusted to the center of the conjugate length of R and G.And, when conjugate length TC is adjusted to scope between the conjugate length TC that falls into R and G, that is, satisfy (TC of R) 〉=TC 〉=(TC of G), also effect that can be same as described above.

The manufacture method of above-mentioned imageing sensor will be described below.

Set of lenses 2 and lighting device 3 are inserted in the precalculated position of the framework 5 shown in Fig. 1 respectively.Lighting device 3 is inserted into and makes three sides of light guide member 32 fit with the level and the vertical surface of framework 5 respectively.Like this, can accurately obtain location in the direction of rotation of optical axis.

Next, cover-plate glass 4 adheres to two planes by adhesive along vertical quilt of framework 5,---be set to be approximately the identical plane of upper surface of the bossing 322 that forms on the upper surface with light guide member 32, with the upper surface of set of lenses 2, and be set up lighting device 3 and set of lenses 2 are clipped in the middle.

When framework 5 and cover-plate glass 4 were bonded together mutually, set of lenses 2 and lighting device 3 can be fixed in the mode of rule.

At last, four of led chip 31 pins 314 are electrically connected to sensor board by the mode of for example welding.Like this, above-mentioned imageing sensor is done.

Figure 11 is the schematic section that shows the structure of the information processor that utilizes above-mentioned imageing sensor.Figure 11 example be used on recording medium P the printer of the image of record original paper PP.

In Figure 11, this equipment comprises 100, one paper feed rollers 104 of 20, one sensor units of an operation panel, air roll 106 and 130, one separation members 140 of 110, one system, control circuit plates of 112, one recording heads and power supply 150.

The integral body control of this setting is to be undertaken by the microcomputer that is installed on the system, control circuit plate.In addition, microcomputer is also carried out the control of above-mentioned imageing sensor, that is, and and the drive controlling of the switch of lighting device 3 and transducer 1.Through the processing that being used to record on the recording medium P by the picture signal that sensor unit 100 is read, perhaps through being used for being undertaken the image processing of outside output image signal by the signal processing circuit on the system, control circuit plate 130.This signal processing circuit is also by Controlled by Microcomputer.

Figure 12 has shown the messaging device that utilizes the imageing sensor formation of describing among each embodiment.In this embodiment, the image read-out with built-in imageing sensor 200 is connected to that people's computer 160 is to constitute a system one by one, and the information of reading is sent to personal computer and computer network.Below this example will be described.

Referring to Figure 12, image read-out 150 comprises that CPU170 is as the first control device that is used to control entire image reading device 150, the color image sensor 200 that constitutes by above-mentioned light source, a CCD line sensor, or like, as reading unit and an analogy signal processing unit 116 of the image transitions of original paper being become picture signal, be used to carry out simulation process, for example be used for from the gain adjustment of the analog picture signal of color image sensor 200 outputs.

And, device 150 comprises an A/D converter 118, be used for and convert digital signal to from the output of analogy signal processing unit 116, a digital picture processing unit 180, for example the dateout of 122 pairs of A/D converters of memory is carried out for example shading correction, and γ proofreaies and correct, variable processing and amplifying or similar processing, an interface 124 is used to export DID to an external equipment of being handled by Digital Image Processing circuit 180.Interface 124 meets normally used for example SCSI in the computer, Bi-Centronics, or similar standard, and be connected to personal computer 160.These analog signal processing circuits 116, A/D converter 118, image processing circuit 180 and memory 122 constitute a signalling.

Personal computer 160 is equipped with an external memory or 132, one magneto optical drivers of auxilary unit, a floppy disk, or similar devices as second control device.Personal computer 160 comprises the display 134 that is used to show the personal computer operation, is used for the mouse/keyboard 133 to personal computer input instruction etc.Personal computer also comprises and being used for and the image read-out swap data, the interface 135 of the state information of order and image read-out.

The CPU136 of personal computer 160 allows the user to utilize mouse/keyboard 133 to the CPU170 of image read-out input reading command.When reading command was imported by mouse/keyboard 133, CPU136 sent a reading order by interface 135 to the CPU170 of image read-out.The CPU136 of personal computer 160 is according to the CPU170 that is stored in the control program information Control image read-out among the ROM137, and CPU170 controls light source, the driving of CCD and signal processing apparatus.Notice that this control program can be stored in for example magneto optical disk, floppy disk, or be loaded in the similar mediums in the auxilary unit 132, also can be loaded into personal computer 160 and carry out by CPU136.

Like this, above-mentioned imageing sensor can be applied in this equipment, and actual effective equipment is provided.

As mentioned above, comprising the photo-electric conversion element group that is used to receive light, launch first successively from short wavelength side, the lighting device of the second and the 3rd tri-color beam, the lens of photo-electric conversion element group are arrived in the light imaging that is used for reflecting on the original paper, or in the imageing sensor of like, the conjugate length TC of lens is set up and satisfies A≤TC≤B, wherein A is the conjugate length of emission wavelength of the light source of second look, B is the conjugate length of emission wavelength of the light source of the 3rd look, thereby, the resolution of forming the light of elephant at the B photo-electric conversion element is lower than the resolution of R and G photo-electric conversion element group, and the edge of a very thin line when reading in output image can be by suitable erasing, and especially significantly moore phenomenon can be alleviated in colored output image, therefore, obtain the high-quality image of preferable color.

When reading the monochrome original of the height explanation that need be used for character, one or two of R and G photo-electric conversion element group is switched on, and B photo-electric conversion element group is closed, and therefore, obtains required image.And when R and G opto-electronic conversion group were connected simultaneously, time for reading can be shortened.

Owing to used the lens material of little aberration, have 20 (degree) or more the lens that become clear of large aperture angle are selected.Because this reason, the illumination on the photo-electric conversion element group can be increased, and signal to noise ratio can be enhanced, and reading speed can be increased, and therefore, obtains higher performance.

In addition, because lighting device is to be made of light source and the light guide member that is used for the light that light source sends is converged and outputs to required direction, therefore, can obtain uniform illumination by less light-emitting component on the original paper surface, therefore, realized reducing cost greatly.

And, below comprise the photo-electric conversion element group that is used to receive light, launch first successively from short wavelength side, the lighting device of the second and the 3rd tri-color beam, the lens of photo-electric conversion element group are arrived in the light imaging that is used for reflecting on the original paper, or in the imageing sensor of like, the optical distance at the center from the photo-electric conversion element to lens be set as have wavelength be longer than second color light source emission wavelength peak value light conjugate length (TC) 1/2, be set as from the original paper stayed surface of cover plate part to the optical distance the lens centre light of emission wavelength with conjugate length shorter than TC conjugate length (TC ') 1/2, thereby, even when the weak point focal length, have angular aperture 20 (degree) or bigger and have short depth of focus etc. magnification ratio type set of lenses be used as lens, have angular aperture no better than and be 12 (degree) conventional lenses depth of focus depth of focus for of all kinds can be obtained, read in that coloured image often uses in reading with the original paper of picture the time can obtain satisfied output image.

Owing to have the short focal length of the angular aperture of 20 degree, wait magnification ratio type set of lenses, the light quantity efficiency of transmission from original paper to the photo-electric conversion element group can be enhanced, and the reading speed of original paper can be increased.In addition, because conjugate length (TC) is shortened, imageing sensor and the size of utilizing the messaging device of this imageing sensor have also been reduced.

In the scope that does not break away from spirit of the present invention, can make various embodiment to the present invention.Should be appreciated that the present invention is not limited to the certain embodiments in the specification, and limit by appended claims.

Claims

1. an image read-out comprises:

Be arranged to linear a plurality of photo-electric conversion elements;

A lighting device, the light source with the first, the second and the 3rd color, its emission wavelength is elongated with the order of name, is used for linear illumination original paper;

A lens arra, it is linear to comprise that a plurality of lens pillars are arranged to, described a plurality of lens pillars be used for from the light imaging of the original paper that is shone by described lighting device to described a plurality of opto-electronic conversion original papers;

A support component is used to support original paper,

Wherein lens pillar vertically on, from the center of lens pillar to the optical distance of photo-electric conversion element be set as the light that equals to have a wavelength first conjugate length 1/2, this light wavelength is longer than the peak value of emission wavelength of the light source of second color, is set as 1/2 of second conjugate length shorter than first conjugate length from the center of lens pillar to the optical distance the original paper stayed surface of support component.

2. according to the device of claim 1, wherein colored original paper is to read by the tri-color beam of conducting the first, the second and the 3rd look according to priority and selectively.

3. according to the device of claim 1, wherein when reading monochrome original, the light of first look or be not used based on the information of the light of first look.

4. according to the device of claim 3, wherein when monochrome original was read, one or two in the light source of the emission wavelength of the second and the 3rd look was switched on.

5. according to the device of claim 1, wherein said lens arra comprises a lens pillar that waits the magnification ratio type to have short focal length and be not less than the angular aperture of 20 degree.

6. according to the device of claim 1, wherein said lighting device comprises that one is used for leading in the desired direction from the light of light source and exports the light guide member of this light.

7. according to the device of claim 1, wherein light source uses three different LED, is used for launching respectively the first, the second and the 3rd light beam, wherein the first, the second is respectively different wave-length coverages with the 3rd light beam.

8. according to the device of claim 1, wherein the peak emission wavelength of first look falls into the scope to 490nm corresponding to the 450nm of blueness, the peak emission wavelength of second look falls into the scope to 550nm corresponding to the 510nm of green, and the peak emission wavelength of the 3rd look falls into the scope to 630nm corresponding to the 590nm of redness.

9. according to the device of claim 1, further comprise:

A control unit is suitable for controlling described photo-electric conversion element and lighting device.

10. according to the device of claim 9, wherein colored original paper is to read by the tri-color beam of conducting the first, the second and the 3rd look according to priority and selectively.

11. according to the device of claim 9, wherein when reading monochrome original, the light of first look or be not used based on the information of the light of first look.

12. according to the device of claim 11, wherein when monochrome original was read, one or two in the light source of the emission wavelength of the second and the 3rd look was switched on.

13. according to the device of claim 9, wherein said lens arra comprises a lens pillar that waits magnification ratio to have short focal length and be not less than the angular aperture of 20 degree.

14. according to the device of claim 9, wherein said lighting device comprises that one is used for leading in the desired direction from the light of light source and exports the light guide member of this light.

15. according to the device of claim 9, wherein light source uses three different LED, is used for launching respectively the first, the second and the 3rd light beam, wherein the first, the second is respectively different wave-length coverages with the 3rd light beam.

16. device according to claim 9, wherein the peak emission wavelength of first look falls into the scope to 490nm corresponding to the 450nm of blueness, the peak emission wavelength of second look falls into the scope to 550nm corresponding to the 510nm of green, and the peak emission wavelength of the 3rd look falls into the scope to 630nm corresponding to the 590nm of redness.

17. according to the device of claim 9, further comprise a driver element, be suitable for the position relation between mobile original paper and the described a plurality of photo-electric conversion element.

18. an image read-out comprises:

Be arranged to linear a plurality of photo-electric conversion elements;

A lighting device, the light source with the first, the second and the 3rd color, its emission wavelength is elongated with the order of name, is used for linear irradiation original paper;

A lens arra, it is linear to comprise that a plurality of lens pillars are arranged to, and the light imaging that described a plurality of lens pillars are used for the original paper by described lighting device irradiation is reflected is to described a plurality of opto-electronic conversion original papers; And

A support component is used to support original paper,

Wherein lens pillar vertically on, from the center of lens pillar to the optical distance of photo-electric conversion element be set as the 3rd colour light source emission wavelength conjugate length 1/2, be set as to the optical distance the original paper stayed surface of support component from the center of lens pillar second colour light source emission wavelength conjugate length 1/2.

19. according to the device of claim 18, wherein colored original paper is to read by the tri-color beam of conducting the first, the second and the 3rd look according to priority and selectively.

20. according to the device of claim 18, wherein when reading monochrome original, the light of first look or be not used based on the information of the light of first look.

21. according to the device of claim 20, wherein when monochrome original was read, one or two in the light source of the emission wavelength of the second and the 3rd look was switched on.

22. according to the device of claim 18, wherein said lens arra comprises a lens pillar that waits magnification ratio to have short focal length and be not less than the angular aperture of 20 degree.

23. according to the device of claim 18, wherein said lighting device comprises that one is used for leading in the desired direction from the light of light source and exports the light guide member of this light.

24. according to the device of claim 18, wherein light source uses three different LED, is used for launching respectively the first, the second and the 3rd light beam, wherein the first, the second is respectively different wave-length coverages with the 3rd light beam.

25. device according to claim 18, wherein the peak emission wavelength of first look falls into the scope to 490nm corresponding to the 450nm of blueness, the peak emission wavelength of second look falls into the scope to 550nm corresponding to the 510nm of green, and the peak emission wavelength of the 3rd look falls into the scope to 630nm corresponding to the 590nm of redness.

26. the device according to claim 18 further comprises:

A control unit is suitable for controlling described a plurality of photo-electric conversion element and lighting device.

27. according to the device of claim 26, wherein colored original paper is to read by the tri-color beam of conducting the first, the second and the 3rd look according to priority and selectively.

28. according to the device of claim 26, wherein when reading monochrome original, the light of first look or be not used based on the information of the light of first look.

29. according to the device of claim 28, wherein when monochrome original was read, one or two in the light source of the emission wavelength of the second and the 3rd look was switched on.

30. according to the device of claim 26, wherein said lens arra comprises a lens pillar that waits magnification ratio to have short focal length and be not less than the angular aperture of 20 degree.

31. according to the device of claim 26, wherein said lighting device comprises that one is used for leading in the desired direction from the light of light source and exports the light guide member of this light.

32. according to the device of claim 26, wherein light source uses three different LED, is used for launching respectively the first, the second and the 3rd light beam, wherein the first, the second is respectively different wave-length coverages with the 3rd light beam.

33. device according to claim 26, wherein the peak emission wavelength of first look falls into the scope to 490nm corresponding to the 450nm of blueness, the peak emission wavelength of second look falls into the scope to 550nm corresponding to the 510nm of green, and the peak emission wavelength of the 3rd look falls into the scope to 630nm corresponding to the 590nm of redness.

34. according to the device of claim 26, further comprise a driver element, be suitable for the position relation between mobile original paper and the described a plurality of photo-electric conversion element.

35. an image read-out comprises:

Be arranged to linear a plurality of photo-electric conversion elements;

A support component is used to support original paper; And

A lens arra, it is linear to comprise that a plurality of lens pillars are arranged to, and the light imaging that described a plurality of lens pillars are used for the original paper by described lighting device irradiation is reflected is to described a plurality of opto-electronic conversion original papers;

Wherein the conjugate length TC of lens pillar is set as and satisfies A≤TC≤B, and wherein, A is the conjugate length of emission wavelength of the light source of second color, and B is the conjugate length of emission wavelength of the light source of the 3rd color.

36. according to the device of claim 35, wherein colored original paper is to read by the tri-color beam of conducting the first, the second and the 3rd look according to priority and selectively.

37. according to the device of claim 35, wherein when reading monochrome original, the light of first look or be not used based on the information of the light of first look.

38. according to the device of claim 37, wherein when monochrome original was read, one or two in the light source of the emission wavelength of the second and the 3rd look was switched on.

39. according to the device of claim 35, wherein said lens arra comprises a lens pillar that waits magnification ratio to have short focal length and be not less than the angular aperture of 20 degree.

40. according to the device of claim 35, wherein said lighting device comprises that one is used for leading in the desired direction from the light of light source and exports the light guide member of this light.

41. according to the device of claim 35, wherein light source uses three different LED, is used for launching respectively the first, the second and the 3rd light beam, wherein the first, the second is respectively different wave-length coverages with the 3rd light beam.

42. device according to claim 35, wherein the peak emission wavelength of first look falls into the scope to 490nm corresponding to the 450nm of blueness, the peak emission wavelength of second look falls into the scope to 550nm corresponding to the 510nm of green, and the emission peak wavelength of the 3rd look falls into the scope to 630nm corresponding to the 590nm of redness.

43. an image read system comprises:

Be arranged to linear a plurality of photo-electric conversion elements;

A support component is used to support original paper;

A control unit is suitable for controlling described photo-electric conversion element and lighting device;

44. according to the system of claim 43, wherein colored original paper is to read by the tri-color beam of conducting the first, the second and the 3rd look according to priority and selectively.

45. according to the system of claim 43, wherein when reading monochrome original, the light of first look or be not used based on the information of the light of first look.

46. according to the system of claim 45, wherein when monochrome original was read, one or two in the light source of the emission wavelength of the second and the 3rd look was switched on.

47. according to the system of claim 43, wherein said lens arra comprises a lens pillar that waits magnification ratio to have short focal length and be not less than the angular aperture of 20 degree.

48. according to the system of claim 43, wherein said lighting device comprises that one is used for leading in the desired direction from the light of light source and exports the light guide member of this light.

49. according to the system of claim 43, wherein light source uses three different LED, is used for launching respectively the first, the second and the 3rd light beam, wherein the first, the second is respectively different wave-length coverages with the 3rd light beam.

50. system according to claim 43, wherein the peak emission wavelength of first look falls into the scope to 490nm corresponding to the 450nm of blueness, the peak emission wavelength of second look falls into the scope to 550nm corresponding to the 510nm of green, and the peak emission wavelength of the 3rd look falls into the scope to 630nm corresponding to the 590nm of redness.

51. according to the system of claim 43, further comprise a driver element, be suitable for the position relation between mobile original paper and the described a plurality of photo-electric conversion element.